Post by habiba123820 on Nov 2, 2024 9:44:11 GMT
Our blog recently published an article with a review of the 15th generation of Dell servers and the latest non-numbered generation of HPE servers. In it, I ran through all the new products, highlighted the main advantages and innovations, but it was impossible to consider each server separately within the framework of that article due to the volume. It's time to correct this misunderstanding. Especially since there is an excellent reason - we have a Dell EMC PowerEdge R750 server in stock.
Why only now, if the Dell Technologies presentation took place back in March? It's simple - at that time, the latest Intel Xeon Scalable 3 processors had not yet been released, and Dell engineers and developers were fine-tuning the products.
Dell R750 vs Dell R740 Server Specifications and Comparison
The Dell EMC PowerEdge R750 is a 2U rackmount, dual-processor enterprise-class server. Remember that 1U = 44.45 cm, so the R750 is still a compact device that doesn't take up much space wordpress web design agency in a rack or cabinet.
This server is designed to solve business problems, and therefore it is impossible to review it without dry technical characteristics. But so that this section of the article does not cause yawning fits, like boring user agreements on 100 pages, I will try to be brief, and also compare the new product with the previous generation - Dell R740. Let's get started.
As you can see from the table, the internal layout of components in the R750 has become more dense, which made it possible to install more RAM modules.
Dell R750 with 16 sticks of RAM installed
Dress warmly, it will be cold.
The cooling system has also been significantly redesigned. Now air flows are distributed more evenly, reducing the number of “hot spots”.
In addition to optimizing the flows, the fans were improved, they became more powerful and reliable - three levels (instead of two), five blades (instead of three).
On the left is a fan from the R740, on the right is one from the R750
Dell engineers also implemented Multi-Vector Cooling (MVC) 2.0 technology in the R750, which analyzes the temperature of air flows at the input and output, processes this data, and then transmits it to the user for more fine-tuning of cooling. And this is with the presence of built-in automation, which is triggered when processors, graphics accelerators, memory and other components are critically overheated.
Why only now, if the Dell Technologies presentation took place back in March? It's simple - at that time, the latest Intel Xeon Scalable 3 processors had not yet been released, and Dell engineers and developers were fine-tuning the products.
Dell R750 vs Dell R740 Server Specifications and Comparison
The Dell EMC PowerEdge R750 is a 2U rackmount, dual-processor enterprise-class server. Remember that 1U = 44.45 cm, so the R750 is still a compact device that doesn't take up much space wordpress web design agency in a rack or cabinet.
This server is designed to solve business problems, and therefore it is impossible to review it without dry technical characteristics. But so that this section of the article does not cause yawning fits, like boring user agreements on 100 pages, I will try to be brief, and also compare the new product with the previous generation - Dell R740. Let's get started.
As you can see from the table, the internal layout of components in the R750 has become more dense, which made it possible to install more RAM modules.
Dell R750 with 16 sticks of RAM installed
Dress warmly, it will be cold.
The cooling system has also been significantly redesigned. Now air flows are distributed more evenly, reducing the number of “hot spots”.
In addition to optimizing the flows, the fans were improved, they became more powerful and reliable - three levels (instead of two), five blades (instead of three).
On the left is a fan from the R740, on the right is one from the R750
Dell engineers also implemented Multi-Vector Cooling (MVC) 2.0 technology in the R750, which analyzes the temperature of air flows at the input and output, processes this data, and then transmits it to the user for more fine-tuning of cooling. And this is with the presence of built-in automation, which is triggered when processors, graphics accelerators, memory and other components are critically overheated.